CN115072101A - Processing system for packaging tin - Google Patents

Abstract

The invention discloses a processing system for packaging cans, which comprises a filling machine, a conveying and cooling mechanism, a capping machine, a steel wire slideway, a code spraying mechanism and a second conveying belt which are sequentially arranged, wherein a labeling machine and a capping machine are sequentially arranged on the second conveying belt along the conveying direction, the filling machine is used for filling materials into the packaging cans, the conveying and cooling mechanism is used for cooling and cooling the materials in the packaging cans, the capping machine is used for capping the packaging cans, the steel wire slideway is used for conveying the packaging cans with capped caps to the code spraying mechanism for code spraying, the labeling machine is used for spraying codes to the packaging cans, and the capping machine is used for pressing plastic caps on the packaging cans. The invention realizes the integrated automatic processing from canning to can pressing of the packaging can, effectively improves the processing efficiency and reduces the manual operation.

Description

Processing system for packaging tin

Technical Field

The invention relates to the technical field of packaging can processing, in particular to a processing system for a packaging can.

Background

At present in the production process of materials such as canned fragrant agent, need through many processes such as canning, cooling, closing cap to many process steps are numerous and all need separately to process, process between each process through the manual work, and the process step is comparatively loaded down with trivial details, and is convenient inadequately, and the manual work that needs is more, and the transport is comparatively troublesome from beginning to end, and work efficiency is low. It is therefore desirable to provide a system for integrating the filling of cans into the capping of cans that reduces manual handling and improves efficiency.

Disclosure of Invention

The invention provides a processing system for a packaging can, which aims to solve the problems in the background technology.

In order to solve the problems, the invention adopts the technical scheme that:

a processing system for packaging cans comprises a filling machine, a conveying and cooling mechanism, a capping machine, a steel wire slideway, a code spraying mechanism and a second conveying belt which are sequentially arranged, wherein a labeling machine and a capping machine are sequentially arranged on the second conveying belt along the conveying direction, the filling machine is used for filling materials into the packaging cans, the conveying and cooling mechanism is used for cooling and cooling the materials in the packaging cans, the capping machine is used for capping the packaging cans, the steel wire slideway is used for conveying the packaging cans subjected to capping to the code spraying mechanism for code spraying, the labeling machine is used for code spraying the packaging cans, and the capping machine is used for pressing plastic covers on the packaging cans;

also comprises the following steps:

s1, filling the empty packaging tank by a filling machine;

s2, after the empty packaging tank is filled by the filling machine, conveying the packaging tank to the capping machine along with the conveying and cooling mechanism, and cooling the materials in the packaging tank through the conveying and cooling mechanism;

s3, cooling, conveying to a capping machine, and capping the packaging can by the capping machine;

and S4, after the packaging can is sealed, the packaging can slides to a code spraying mechanism through a steel wire slide way to spray codes, after the code spraying is finished, the packaging can slides to a second conveying belt, and the packaging can is conveyed along the second conveying belt to finish labeling and capping work through a labeling machine and a capping machine in sequence. The material is fragrant agent or fragrant cream.

Preferably, the conveying and cooling mechanism comprises a first conveying belt, the filling machine and the capping machine are respectively installed at two ends of the first conveying belt, a plurality of cooling pipes are arranged right above the first conveying belt at the same intervals along the length direction of the first conveying belt, and an air cooler is installed at one end, far away from the first conveying belt, of each cooling pipe.

Preferably, a cooling cover is further arranged above the first conveying belt, the cooling cover is hollow, openings for the first conveying belt and the packaging tin to pass through are formed in two ends of the cooling cover, a cooling channel for cooling materials is formed between the hollow part of the cooling cover and the first conveying belt, and the interior of the cooling cover is communicated with the cooling pipes above the cooling cover.

Preferably, a second photo eye sensor is further arranged on one side of the first conveying belt under the capping machine, and the capping machine and the second photo eye sensor are respectively connected with a controller.

Preferably, the steel wire slide is including 6 billet from top to bottom spiral setting, 6 form the passageway that is used for packing jar side direction landing between the billet 6 the length direction of billet is followed in the outside of billet is equipped with a plurality of fixed frames according to the same interval. The inlet at the upper end of the steel wire slide way is arranged upside down at the outlet at the lower end, the width and the height of the steel wire slide way correspond to those of the packaging tin, and the packaging tin can only slide down along the steel wire slide way one by one in the lateral direction, so that the packaging tin enters the steel wire slide way in a state that the top surface faces upwards and finally enters the chute in a state that the top part of the packaging tin faces downwards.

Preferably, the code spraying mechanism comprises a sliding groove which is obliquely arranged, the lower end of the steel wire sliding way is correspondingly connected with the upper end of the sliding groove, an ink spraying machine is installed right above the middle position of the sliding groove, a third photo eye sensor is installed on one side of the sliding groove right below the ink spraying machine, and the ink spraying machine and the third photo eye sensor are respectively connected with the controller.

Preferably, the lower end of the chute corresponds to the second conveying belt, a can turning mechanism is further arranged on the second conveying belt between the labeling machine and the chute, the can turning mechanism comprises synchronous belt devices located on two sides of the first conveying belt, each synchronous belt device comprises a synchronous belt, the synchronous belts are in a trapezoidal structure by being provided with four synchronous wheels, the short side faces of the two synchronous belts are arranged oppositely, and the distance between the two synchronous belts is smaller than the diameter of the packaging can.

Preferably, a first stop block and a second stop block are further arranged between the two synchronous belts and arranged along the conveying direction of the first conveying belt, the height of the first stop block is lower than one half of the packaging can, the second stop block is higher than the first stop block, and the vertical distance from the top surface of the second stop block to the top surface of the first stop block is smaller than the radius of the packaging can.

Preferably, a synchronous wheel motor is arranged below each synchronous wheel, an output shaft of each synchronous wheel motor is connected with the corresponding synchronous wheel, and elastic rubber layers are arranged on the surface of each synchronous belt and the surface of the belt.

Preferably, the side edge of the second conveying belt is further provided with a fourth photo eye sensor corresponding to the labeling machine and a fifth photo eye sensor corresponding to the capping machine, and the labeling machine, the capping machine, the fourth photo eye sensor and the fifth photo eye sensor are respectively connected with the controller.

Compared with the prior art, the invention has the following beneficial effects:

the automatic material packaging can conveying and cooling mechanism has the advantages that after packaging can filling is completed, the conveying and cooling mechanism can convey the packaging can and simultaneously directly cool materials in the packaging can, conveying and cooling are completed together, processing in separate steps is not needed, the packaging can enter the code spraying mechanism in a state that the bottom is upward through the steel wire slide way after being sealed, code spraying is carried out on the bottom of the packaging can, manual overturning is not needed after code spraying is completed, the can body is automatically overturned to be in a state that the top is upward again through the can overturning mechanism, the work of middle manual can overturning is reduced, and the filling machine, the conveying and cooling mechanism, the cap sealing machine, the code spraying mechanism, the labeling machine and the cap pressing machine are sequentially arranged, so that the integrated automatic material packaging can processing from filling to pressing can is realized, manual operation is effectively reduced, and the processing efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the wire chute of the present invention;

FIG. 3 is a schematic view of a code spraying mechanism of the present invention;

FIG. 4 is a schematic view of the can tilting mechanism of the present invention;

12-conveying pipe, 21-first conveying belt, 22-filling machine, 23-cooling cover, 24-cooling pipe, 25-air cooler, 27-capping machine, 28-steel wire slideway, 281-steel bar, 282-fixing frame, 31-chute, 32-code spraying machine, 321-third photo eye sensor, 33-second conveying belt, 34-can turning mechanism, 341-synchronous belt, 342-synchronous wheel, 343-first stop, 344-second stop, 35-labeling machine and 36-capping machine.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, a processing system for packaging cans comprises a filling machine 22, a conveying and cooling mechanism, a capping machine 27, a steel wire slideway 28, a code spraying mechanism and a second conveyer belt 33, which are sequentially arranged, wherein a labeling machine 35 and a capping machine 36 are sequentially arranged on the second conveyer belt 33 along a conveying direction, the filling machine 22 is used for filling materials into the packaging cans, the conveying and cooling mechanism is used for cooling and cooling the materials in the packaging cans, the capping machine 27 is used for capping the packaging cans, the steel wire slideway 28 is used for conveying the packaging cans with capped caps to the code spraying mechanism for code spraying, the labeling machine 35 is used for spraying codes to the packaging cans, and the capping machine 36 is used for pressing plastic caps on the packaging cans;

also comprises the following steps:

s1, the filling machine 22 is used for filling the empty packaging tin;

s2, after the empty packaging cans are filled by the filling machine 22, the packaging cans are conveyed to the capping machine 27 along with the conveying and cooling mechanism, and materials in the packaging cans are cooled by the conveying and cooling mechanism in the process;

s3, cooling, conveying to a capping machine 27, and capping the packaging cans by the capping machine 27;

s4, after the packaging can is sealed, the packaging can slides to a code spraying mechanism through the steel wire slide way 28 to be sprayed with codes, after the code spraying is finished, the packaging can slides to the second conveying belt 33, and the packaging can is conveyed along the second conveying belt 33 to sequentially pass through the labeling machine 35 and the capping machine 36 to finish labeling and capping work. The material is fragrant agent or fragrant cream.

The conveying and cooling mechanism comprises a first conveying belt 21, the filling machine 22 and the capping machine 27 are respectively installed at two ends of the first conveying belt 21, a plurality of cooling pipes 24 are arranged right above the first conveying belt 21 along the length direction of the first conveying belt 21 at the same interval, and an air cooler 25 is installed at one end, far away from the first conveying belt 21, of each cooling pipe 24.

A cooling cover 23 is further arranged above the first conveying belt 21, the cooling cover 23 is hollow, openings for the first conveying belt 21 and the packaging cans to pass through are formed in two ends of the cooling cover 23, a cooling channel for cooling materials is formed between the hollow part of the cooling cover 23 and the first conveying belt 21, and the interior of the cooling cover 23 is communicated with the cooling pipes 24 above.

A second photo eye sensor is further arranged on one side of the first conveying belt 21 under the capping machine 27, and the capping machine 27 and the second photo eye sensor are respectively connected with a controller.

The steel wire slide 28 includes 6 billet 281, 6 from top to bottom spiral setting form the passageway that is used for packing jar side direction landing between the billet 281, 6 the outside of billet 281 is equipped with a plurality of fixed frames 282 according to the same interval along the length direction of billet 281. The inlet at the upper end of the steel wire slide way 28 is arranged upside down at the outlet at the lower end, the width and the height of the steel wire slide way 28 correspond to the width and the height of the packaging tin, and the packaging tins can only slide down along the steel wire slide way 28 one by one in the lateral direction, so that the packaging tins enter the steel wire slide way 28 in a state that the top surfaces of the packaging tins face upwards and slide backwards, and finally enter the chute 31 in a state that the tops of the packaging tins face downwards.

The code spraying mechanism comprises a sliding groove 31 placed in a slant mode, the lower end of the steel wire slide 28 is correspondingly connected with the upper end of the sliding groove 31, an ink spraying machine 32 is installed right above the middle position of the sliding groove 31, a third photo eye sensor 321 is installed on one side of the sliding groove 31 right below the ink spraying machine 32, and the ink spraying machine 32 and the third photo eye sensor 321 are connected with the controller respectively.

The lower extreme of spout 31 corresponds the setting with second conveyer belt 33, makes the jar body can be at spout 31 landing to second conveyer belt 33 on, and still be equipped with on labeller 35 and the direct second conveyer belt 33 of spout 31 and turn over a jar mechanism 34, turn over a jar mechanism 34 including the hold-in range 341 device that is located first conveyer belt 21 both sides, each hold-in range 341 device all includes a hold-in range 341, and hold-in range 341 is interior to make hold-in range 341 be the trapezium structure through setting up four synchronizing wheel 342, two the short side of hold-in range 341 sets up relatively, and two interval between the hold-in range 341 is less than the diameter of packing jar.

A first stop 343 and a second stop 344 are arranged between the two synchronous belts 341 along the conveying direction of the first conveying belt 21, the height of the first stop 343 is lower than one half of the packaging cans, the second stop 344 is higher than the first stop 343, and the vertical distance from the top surface of the second stop 344 to the top surface of the first stop 343 is smaller than the radius of the packaging cans.

A synchronous wheel motor is arranged below each synchronous wheel 342, an output shaft of each synchronous wheel motor is connected with the corresponding synchronous wheel 342, and elastic rubber layers are arranged on the surface of each synchronous belt 341 and the surface of the belt.

The side edge of the second conveying belt 33 is further provided with a fourth photo eye sensor corresponding to the labeling machine 35 and a fifth photo eye sensor corresponding to the capping machine 36, and the labeling machine 35, the capping machine 36, the fourth photo eye sensor and the fifth photo eye sensor are respectively connected with the controller.

In the use of the present invention, the filling machine 22 is transported along the first conveyor belt 21 after filling, and the air cooler 25 operates to cool the material in the packaging can transported on the first conveyor belt 21 by the cooperation of the cooling pipe 24 and the cooling cover 23 during the transportation of the first conveyor belt 21.

After cooling, the packaging tin moves to the position below the cap sealing machine 27 along with the first conveying belt 21, the second photo eye sensor detects the packaging tin, and the cap sealing machine 27 is controlled by the matching controller to seal the packaging tin and the cap.

After the sealing cover is finished, the packaging tin is conveyed to an upper end entrance of the steel wire slide way 28 along with the first conveying belt 21, the top of the packaging tin upwards enters the steel wire slide way 28, and due to the fact that gravity acts on the packaging tin to slide along the steel wire slide way 28, the packaging tin is in a state that the top surface faces downwards when the packaging tin slides to the lower end of the steel wire slide way 28 due to the fact that the lower end of the steel wire slide way 28 is opposite to the upper end.

Packing jar slides down from the upper end of spout 31 with bottom surface up state, during through third smooth eye sensor 321, cooperation controller control ink jet numbering machine 32 spouts the sign indicating number to the bottom surface of packing jar, when packing jar landing to second conveyer belt 33 on, the side of packing jar is held in hold-in range 341 work and is transported, the lower part of packing jar contacts first dog 343 and the upper portion of packing jar does not receive and blocks, consequently, packing jar can rotate ninety degrees and continue to carry forward, can rotate to openly up packing jar with first dog 343 in the same reason when packing jar contacts second dog 344, fall into to continue to carry forward on the second conveyer belt 33 afterwards and accomplish the upset.

The packing jar is carried along with second conveyer belt 33, and when the fourth light eye sensor, fourth light eye sensor cooperation controller control labeller 35 pastes the mark to the side of packing jar, and later the packing jar advances along with the packing jar again, and the fifth light eye sensor senses the packing jar and carries out last pressure jar processing to the packing jar.

The invention realizes the integrated automatic processing from canning to can pressing of the packaging can, effectively improves the processing efficiency and reduces the manual operation.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A processing system for a packaging can is characterized in that: the packaging can material conveying and cooling device comprises a filling machine (22), a conveying and cooling mechanism, a capping machine (27), a steel wire slideway (28), a code spraying mechanism and a second conveying belt (33), wherein the second conveying belt (33) is sequentially provided with a labeling machine (35) and a capping machine (36) along the conveying direction, the filling machine (22) is used for filling materials into the packaging cans, the conveying and cooling mechanism is used for cooling and cooling the materials in the packaging cans, the capping machine (27) is used for capping the packaging cans, the steel wire slideway (28) is used for conveying the packaging cans with the capped caps to the code spraying mechanism for code spraying, the labeling machine (35) is used for code spraying the packaging cans, and the capping machine (36) is used for pressing plastic caps on the packaging cans;

also comprises the following steps:

s1, the filling machine (22) is used for filling the empty packaging tank;

s2, after the empty packaging tank is packaged by the filling machine (22), the packaging tank is conveyed to the capping machine (27) along with the conveying and cooling mechanism, and the materials in the packaging tank are cooled by the conveying and cooling mechanism in the process;

s3, cooling, conveying to a capping machine (27), and capping the packaging cans by the capping machine (27);

s4, after the packaging can is sealed, the packaging can slides to a code spraying mechanism through a steel wire slide way (28) to be sprayed with codes, after the code spraying is finished, the packaging can slides to a second conveyer belt (33), and the packaging can is conveyed along the second conveyer belt (33) to sequentially complete the labeling and capping work through a labeling machine (35) and a capping machine (36).

2. The processing system for the packaging can as set forth in claim 1, characterized in that: the conveying and cooling mechanism comprises a first conveying belt (21), the filling machine (22) and the capping machine (27) are respectively installed at two ends of the first conveying belt (21), a plurality of cooling pipes (24) are arranged right above the first conveying belt (21) at the same intervals along the length direction of the first conveying belt (21), and an air cooler (25) is installed at one end, far away from the first conveying belt (21), of each cooling pipe (24).

3. The processing system for the packaging can as set forth in claim 2, characterized in that: a cooling cover (23) is further arranged above the first conveying belt (21), the cooling cover (23) is hollow, openings for the first conveying belt (21) and the packaging cans to penetrate through are formed in two ends of the cooling cover (23), a cooling channel for cooling materials is formed between the hollow portion of the cooling cover (23) and the first conveying belt (21), and the interior of the cooling cover (23) is communicated with the cooling pipes (24) above the cooling cover.

4. The processing system for the packaging can as set forth in claim 1, characterized in that: and a second photo-eye sensor is also arranged on one side of the first conveying belt (21) under the cover sealing machine (27), and the cover sealing machine (27) and the second photo-eye sensor are respectively connected with a controller.

5. The processing system for the packaging can as set forth in claim 1, characterized in that: steel wire slide (28) are including 6 billet (281), 6 from top to bottom spiral arrangement form the passageway that is used for packing jar side direction landing between billet (281), 6 the length direction of billet (281) is followed in the outside of billet (281) is equipped with a plurality of fixed frames (282) according to the same interval.

6. The processing system for the packaging can as claimed in claim 5, wherein: spout ink jet numbering machine and construct including spout (31) that the slant was placed, the lower extreme of steel wire slide (28) corresponds with the upper end of spout (31) and is connected, install an ink jet numbering machine (32) directly over the middle part position of spout (31), and third light eye sensor (321) are installed to one side of spout (31) under ink jet numbering machine (32), ink jet numbering machine (32) and third light eye sensor (321) are connected with the controller respectively.

7. The processing system for the packaging can as claimed in claim 6, wherein: the lower extreme of spout (31) corresponds the setting with second conveyer belt (33), and still be equipped with on labeller (35) and the direct second conveyer belt (33) of spout (31) and turn over a jar mechanism (34), turn over a jar mechanism (34) including hold-in range (341) device that is located first conveyer belt (21) both sides, each hold-in range (341) device all includes a hold-in range (341), and hold-in range (341) are interior through setting up four synchronizing wheel (342) messenger hold-in range (341) and be the trapezium structure, two the minor face of hold-in range (341) sets up relatively, and two interval between hold-in range (341) is less than the diameter of packing jar.

8. The processing system for the packaging can as set forth in claim 7, characterized in that: a first stop block (343) and a second stop block (344) are further arranged between the two synchronous belts (341) along the conveying direction of the first conveying belt (21), the height of the first stop block (343) is lower than one half of that of the packaging tin, the second stop block (344) is higher than the first stop block (343), and the vertical distance from the top surface of the second stop block (344) to the top surface of the first stop block (343) is smaller than the radius of the packaging tin.

9. The processing system for the packaging can as set forth in claim 7, characterized in that: a synchronous wheel motor is arranged below each synchronous wheel (342), the output shaft of each synchronous wheel motor is connected with the corresponding synchronous wheel (342), and elastic rubber layers are arranged on the surface of each synchronous belt (341) and the surface of the belt.

10. The processing system for the packaging can as set forth in claim 7, characterized in that: the side edge of the second conveying belt (33) is further provided with a fourth photo eye sensor corresponding to a labeling machine (35) and a fifth photo eye sensor corresponding to a capping machine (36), and the labeling machine (35), the capping machine (36), the fourth photo eye sensor and the fifth photo eye sensor are respectively connected with a controller.

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